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Aquatic animal egg collection apparatus, and method of use

a technology for collecting apparatus and animals, applied in pisciculture, aquaria, climate change adaptation, etc., can solve the problems of egg layers, techniques that work well, limitations, etc., and achieve the effects of reducing the number of collectors

Inactive Publication Date: 2007-08-14
YAMAMOTO MIKE NORIHISA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This system reduces labor requirements, increases egg yield, and allows for more efficient breeding of diverse species by minimizing handling and predation, thereby lowering operational costs and improving productivity in aquaculture.

Problems solved by technology

Unfortunately, the same cannot be said of egg layers, and more specifically, egg-scattering tropical fish.
These techniques work well, but they have their limitations.
Present day breeding procedures for aquacultured animals used on fish farms and similar facilities commonly suffer from problems and disadvantages.
They require intensive use of skilled labor, large space requirements and the use of time consuming techniques and procedures that result in low yields of offspring and a limitation on rearing certain species of animals.
This is both time consuming and requires a highly skilled technician to make an accurate assessment from his knowledge of the various species of fish.
These methods can damage the fragile eggs and reduce the number of viable offspring.
This becomes very labor intensive even with a small number of broodstock animals.
There are many disadvantages associated with the standard methods of spawning aquatic animals.
There is great inefficiency with these methods because animals may be selected for spawning that are not ready to spawn, and conversely animals that are not selected may spawn in the holding tank and thus wasting the eggs.
The selection of unresponsive or infertile males for spawning will result in the wasting of any spawned eggs.
This practice is a waste of broodstock, time and space.
However, the lack of food makes the broodstock animals hungry, which increases the possibly of the eggs being eaten before they can be collected.
Another disadvantage is the mortality associated with frequent handling of the broodstock animals.
These animals are the most valuable individuals in a culture operation and their loss can cause major economic and business problems.
Another drawback with the current spawning methods is the need for many highly skilled technicians to handle the hatchery operation.
The increased operating costs associated with paying higher wages for trained personnel and needing more employees to handle the labor-intensive procedures can become a major operating cost.
There are many devices in the market designed to help culturists spawn livebearing aquatic animals; however, there are no comparable devices to spawn egg-scattering aquatic animals.

Method used

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  • Aquatic animal egg collection apparatus, and method of use
  • Aquatic animal egg collection apparatus, and method of use
  • Aquatic animal egg collection apparatus, and method of use

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0084]Experiments were conducted to fine-tune and modify the Aquatic Animal Egg Collection Apparatus to maximize its effectiveness. A wide range of commercially important egg laying species of tropical fish were tested with this device, and modifications were made as necessary to improve its effectiveness.

[0085]The Aquatic Animal Egg Collection Apparatus was first developed to spawn Synodontis petricola, an African catfish from Lake Tanganyika. As a group, Synodontis catfish are highly valued and not much is known about their breeding behavior. As a result, most of the Synodontis catfish in the trade are wild caught and therefore expensive.

[0086]Some of the first breeding successes for S. petricola were reported about three years ago. It was discovered that S. petricola deposited its eggs in caves by egg-scattering. Culturists were using clay flowerpots with a hole or notch cut out of it. The flowerpot was inverted over a dish of marbles. The fish would enter the flowerpot and scatt...

example 2

[0095]Spawning trials with some of the larger, more active species, such as, the Congo tetra and the Tanganyikan Pearl Killifish resulted in the development of a larger, rectangular shaped Egg Collector container. In this embodiment, the sloped sides of the funnel were replaced by two flat pieces of Plexiglas attached to a Plexiglas box at an angle of 30 degrees or greater. The egg transporter tube was bent into the shape of an “L”, and the horizontal section was along the bottom in the gap formed by the two angled pieces of Plexiglas. Holes were drilled into this section of the tube at ½″ intervals providing a way for the eggs to pass into the egg transporter tube.

[0096]The two collecting plates were attached at an angle of 30 degrees. This proved satisfactory for species with large eggs, such as, the Tanganyikan Pearl Killifish. Smaller eggs, such as those produced by the emperor tetra, needed a steeper angle since this slope was not steep enough to cause all of the eggs to roll d...

example 3

[0097]Improvements were made to the original funnel shaped Egg Collector apparatus. In the first two devices, a clay flowerpot and a small plastic bucket were used to hold the funnel upright. These devices proved to be unwieldy, so the weighted plastic base of a Hydrosponge filter was modified to hold a funnel. These devices were much more streamlined and easier to use.

[0098]Early versions of the funnel-shaped Egg Collector apparatus used plastic funnels. These funnels were fabricated from an opaque plastic material. Two embodiments of the funnel-shaped Egg Collector apparatus were developed. The larger one, with an opening measuring 8″ in diameter, had sides sloping at an angle of 45 degrees. A slightly smaller device with a steeper slope of 60 degrees was also constructed. A big advantage was constructing both of these devices from Plexiglas. Both devices were constructed with clear Plexiglas, which made observation possible of any collected and accumulated eggs.

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PUM

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Abstract

The collection of aquatic animal eggs during hatchery production is a critical step in the successful rearing of these animals. Currently, the equipment and culture methods do not allow large numbers of animals to be spawned at the same time without several people handling the process. The disclosed invention solves the problem of collecting large quantities of released aquatic animal eggs after spawning many adults at the same time. The apparatus is simple to build, maintain, and repair, and the method of its use requires only one person to handle the spawning of many adults.

Description

BACKGROUND OF THE INVENTION[0001]This invention relates to an aquatic animal egg collector used for aquatic animals, such as, tropical fish, freshwater animals, saltwater animals, marine life, or aquacultured animals, to improve collection and removal of ova.[0002]Worldwide, the aquarium products industry has grown in value in recent years to become an important component of international commerce. Like other industries involving the sale of live plants and animals, more restrictions are being placed on the collection of wild stock, and more emphasis being placed on the culture of stock already held in captivity.[0003]Approximately 2,000 species of ornamental aquatic plants and animals are traded worldwide, 80% of which could be captive-bred. In 1995, it was estimated that the retail value for the industry worldwide was between 4 and 15 billion dollars, including all ornamental fish equipment, supplies and accessories. The number of tropical fish hobbyists worldwide can be counted i...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): A01K63/00
CPCA01K61/008A01K61/17Y02A40/81
Inventor YAMAMOTO, MIKE NORIHISA
Owner YAMAMOTO MIKE NORIHISA
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